Hanna Hebelka1, Andreas Nilsson, Lars Ekström, Tommy Hansson. 1. *Department of Radiology, Sahlgrenska University Hospital, SU/M, Gothenburg, Sweden; and †Department of Orthopaedics, Sahlgrenska University Hospital, SU/S, University of Gothenburg, Gothenburg, Sweden.
Abstract
STUDY DESIGN: In vivo experimental porcine study. OBJECTIVE: To investigate if discography induced pressure increase in adjacent degenerate discs. SUMMARY OF BACKGROUND DATA: Despite refinements in the past 2 decades, the validity of discography is debated. Discography in healthy pigs has shown that the pressure increase during disc injection transmits to adjacent discs, a potential source for false positive responses. METHODS: Degeneration in 1 lumbar disc was induced in 10 pigs by drilling a hole through the endplate. Intradiscal pressure was recorded using a 0.36-mm fiber-optic pressure transducer inserted into nucleus pulposus through a 22-gauge needle. The pressure was measured simultaneously in 2 adjacent discs during slow (0.03 mL/s) automated contrast injection into 1 of the discs up to 8 bar (116 psi). Ten adjacent discs were prefilled with contrast from previous discogram. A pressure increase 2 psi or more above baseline was defined as increased pressure in adjacent discs. Pressure was recorded until 15 minutes after injection. RESULTS: A total of 28 discograms were successfully performed. A pressure increase during injection was detected in 57% (16) of the 28 adjacent discs with mean 3.2 psi (1.7-8.2; standard deviation, 1.8), corresponding to a mean increase above baseline of 11%. Of those 16 adjacent discs, 4 were nondegenerate and 12 degenerate, of which 7 were prefilled. Fifteen minutes after injection, 89% of adjacent discs displayed increase in pressure of mean 14% above baseline. CONCLUSION: Discography induced pressure increase in adjacent discs in a degenerate disc model, something not reported earlier. If present, also in human spine pressure transmission, may be a potential cause for false positive discography responses.
STUDY DESIGN: In vivo experimental porcine study. OBJECTIVE: To investigate if discography induced pressure increase in adjacent degenerate discs. SUMMARY OF BACKGROUND DATA: Despite refinements in the past 2 decades, the validity of discography is debated. Discography in healthy pigs has shown that the pressure increase during disc injection transmits to adjacent discs, a potential source for false positive responses. METHODS: Degeneration in 1 lumbar disc was induced in 10 pigs by drilling a hole through the endplate. Intradiscal pressure was recorded using a 0.36-mm fiber-optic pressure transducer inserted into nucleus pulposus through a 22-gauge needle. The pressure was measured simultaneously in 2 adjacent discs during slow (0.03 mL/s) automated contrast injection into 1 of the discs up to 8 bar (116 psi). Ten adjacent discs were prefilled with contrast from previous discogram. A pressure increase 2 psi or more above baseline was defined as increased pressure in adjacent discs. Pressure was recorded until 15 minutes after injection. RESULTS: A total of 28 discograms were successfully performed. A pressure increase during injection was detected in 57% (16) of the 28 adjacent discs with mean 3.2 psi (1.7-8.2; standard deviation, 1.8), corresponding to a mean increase above baseline of 11%. Of those 16 adjacent discs, 4 were nondegenerate and 12 degenerate, of which 7 were prefilled. Fifteen minutes after injection, 89% of adjacent discs displayed increase in pressure of mean 14% above baseline. CONCLUSION: Discography induced pressure increase in adjacent discs in a degenerate disc model, something not reported earlier. If present, also in human spine pressure transmission, may be a potential cause for false positive discography responses.
Authors: Christofer Herlin; Per Kjaer; Ansgar Espeland; Jan Sture Skouen; Charlotte Leboeuf-Yde; Jaro Karppinen; Jaakko Niinimäki; Joan Solgaard Sørensen; Kjersti Storheim; Tue Secher Jensen Journal: PLoS One Date: 2018-08-01 Impact factor: 3.240
Authors: Abbey A Thorpe; Frances C Bach; Marianna A Tryfonidou; Christine L Le Maitre; Fackson Mwale; Ashish D Diwan; Keita Ito Journal: JOR Spine Date: 2018-08-02